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- 27: Number of universal channels in menu 1
26: Typ Analogue InputHere it can be specified for each analogue input, what for a type of sensor is connected. You have the following types: Type 0: Voltage Typ 1: NTC 10 K Typ 2: LDR (Light sensitive Sensor) Typ 3: linear (z.B. Level 0-100%) Typ 4: free definition due to parameters 1-4 in menu 8
Typ 6: internal: Battery-Banks Typ 7: 0-20mA-Sensor Typ 8: 4-20mA-Sensor The input Range is 1-15 See appendix for the Inputs 27: Number of universal channels in menu 1Here the number of universal channels in Menu 1 can be specified. Maximum number: 20. 28: Number of NiCd/NimH-Cells If you enter the number of NiCd/NimH-Cells in series (Standard) in here you can activate the Function ”Charging of NiCd/NimH”. Corresponding Parameters: 29, 73, 74
Here you Input the “mAh-Value” of one cell of the NiCd/NimH-cell you want to load. You find it printed on the batteries. But if two cells are in parallel then you have to enter two times the Capacity. (f.e. 2*2300 mAh = 4600 mAh). 30: Generator Start V/ SOC Should the Generator Start depending from the SOC (State of Charge) then Input “1” or depending from the Battery-Voltage (=0). 31: Start Generator at… Start-Level for the Generator depending on SOC (State of Charge) 32: Load switch off by V /SOC Switch off Load depending from SOC (State of Charge = 1) or Battery-Voltage (= 0) 33: Correction SOC If the SOC (State of Charge)-Value in the Basic-Menu is not exact, you can correct the value using the Correction-Factor. For example: Display is 30%; Real Value is 10%; Correction-Faktor = 10% / 30% = 0,33 34: Adjust Solar Current This value is adjusted that you have a display of 0 A if there is no sun. If that is not correct, press “#” in here and again “#”. The value should be about 563 and can not be changed manually. 35: Temp-Corr U Batt If no Temperature-Sensor is connected and the Analog-Input should be used in another way, this Parameter can be set to “0” 36: Rotate Y-Axis (vertical) If you activate this Function, there is also a Tracking of the Y-Axis according to a Table. That means half of the day it is moving to one direction, the other time back to the base-Position. In this case Relay 3 and 4 is used and can not be used for any other purpose (Alarm etc.) 37: Rotate Slip Here you can enter a Slip for Rotation. This value is added to the Increments to rotate every half an hour. So if the rotation is not exact (going too far or too less in the evening), you can modify this value (for example 20 Seconds) 38: Time go back horizontal Time for going back to Basic-Position horizontal 39: Amplifying factor horizontal tracking Here you can Input a factor for horizontal tracking (0.1 to 100,0). If there is too little or too much tracking you can corrected as follows: 20% to less tracking: Input of 1,2 20% too far tracking: Input of 0,8 40: Running time Output x Here the number of an Output can be defined, for which the running time is detected and displayed. For example the running time of a pump for maintenance purposes. Here also the actual values are displayed (in minutes and seconds) If in this parameter a new Output is defined or set to „0 “, the value is deleted. By the universal channels in menu 1 a message can be generated or another action can be activated if you define as Input number “18” (=running time in minutes max. 32767). This Output is then sent to LogView as well (16. Parameter) if the data are send directly to the PC (start by MP_Remote). Thus you can determine exactly when the Output was on and off. 41: Hardware-Version This value is Preset and corresponds to the Hardware of your board. Do not change! 42: Solar charge on/off by Time Switch off the Solar-Panels at night by Time. This function is relevant for example if you have Relays connected and there is no detection for the Solar-Currrent. The on/off-Time is defined in Menu 6 by the Sunraise (SR) / Sunset (SS)-Value. 43: with SD-Card (0/1) If a MMC or SD Memory Card is installed for long-Term Data-Archive, set this Parameter to "1". If you set it to “No” and then “Yes” again the Pointer is Reset. 44: Scan Analogue Inputs (0-15) Number of Analogue-Channels to be logged. Preset: 2 If the number has been changed, a restart of the Unit is necessary.
1= U battery in V 2= I Solar in A 3= Ah Solar; in Ah 4= I Load 1 in A (Load 1+2) 5= I Load 2 in A (Last 3-5) 6= I Load 3 in A (external) 7= Temperature (Sensor 4) 8= Pulse Counter 9= Voltage NiCd, NimH 10= Wind-Speed 11= Radio Temperature 12= Radio Humidity 13= Radio Rain 45: SD-Chip Block-Nr Internal value for to Display of the Block-Nr written on the SD-Memory Chip. This value can be changed. 46: Dynamic Switch off Voltage-Level Dynamic Switch off Voltage-Levels on all channels according to the history before. This gives a more accurate Battery-Empty Detection. Here you can activate this function. 47: Analogue Input correction +/- For fine-Tuning (for example for the battery voltage) in parameter 47 and 48 an adjustment can be realized. According to the formula y = mx + b (m = upward gradient, b = zero crossover) each linear measured value can be adjusted. Change parameter 47 (+/- Factor) if the value is somewhat inaccurate for low and high value. Change parameter 48 (* Factor) if the value within the lower range is correct however in upper range not. Analogue input 1-15 see list in appendix Measured value 1 is the main battery voltage, which can be corrected here. For the fine correction of the battery voltage I would proceed like that: Input the difference between displayed value and real value (checked by a Voltmeter) in here. If the value should be negative press key „0 “ first. For 0.2 enter simply 2. For 1,1 enter 11. Check and readjust again. More important correction values: Measured value 9 is the Voltage battery bank 2 Measured value 10 is the Voltage battery bank 3 See the actual voltage in the basic menu if the program switch is in position 11. Then Input key „# “ and select 1-3 to see the according voltage and switch to the according battery manually. 48: Analogue Input correction Factor Here a multiplication factor can be setup, if the value within the lower range is correct however in upper range not. Analogue input 1-15 see list in appendix The preset value is 1.0 Analogue Input 13: I-Load Corr 1 If the Load-Current Block 1 (Channel 1, 2) is not exact, you can correct the value using the correction-Factor. For example: Display is 5.0 A; Real Value is 4,5 A; Correction-Faktor = 4,5A / 5A = 0,90 Analogue Input 12: I-Load Corr 2 If the Load-Current Block 2 (Channel 3-5) is not exact, you can correct the value using the correction-Factor. For example: Display is 5.0 A; Real Value is 4,5 A; Correction-Faktor = 4,5A / 5A = 0,90 Analogue Input 11: I-Load Corr 3 (external) If the Load-Current external Sensor (f.e. Inverter) is not exact, you can correct the value using the correction-Factor. For example: Display is 5.0 A; Real Value is 4,5 A; Correction-Faktor = 4,5A / 5A = 0,90
Electrical connection external Current-Sensor: Terminal 78 und Terminal 42 (Minus) Analogue Input 14: I-Solar Corr If the Solar-Current is not exact, you can correct the value using the correction-Factor. For example: Display is 10.0 A; Real Value is 5,0 A; Correction-Faktor = 5A / 10A = 0,50 49: Number of Battery-Banks (0=off) With this Unit you can charge three different and independent Battery-Banks. If the first Battery-Bank is full (Parameter 6) a Delay-Time is started (Parameter 50). After that the next Battery-Bank is activated Automatic. With this Function you can make a kind of Battery-Station to load Batteries of different capacity and quality. T 
ake care: If you use this Function, the max. Current for Battery-Bank 1-3 is 15 A See extra Sheet for electrical connection of the Battery-Banks Bank 1: Connect to Terminal Battery + and Battery -; additional for Charging connect Minus to Terminal Load 3- Bank 2: Plus direct from Solar or Terminal Battery-Bank 1 + Minus to Load 4 - Bank 3: Plus direct from Solar or Terminal Battery + Minus to Load 5 - When you get the Device wiring is prepared only for one Battery-Bank. For to activate up to three Battery-Banks following has to be rewired: Remove cable from Solar Out to Battery – and connect it to Load In (other side of Unit). Furthermore one cable for charging Battery-Bank 1 has to be wired from Battery-Bank 1 Minus to Load 3 - More Parameters corresponding Battery-Bank: 49: Number of Battery-Banks (0=off) 50: Delay Battery Full (in min) 51: U min -> back to the 1. Battery Bank (0=off) 52: Select Battery-Bank manual 54: Correction current Battery-Bank 2 55: Correction current Battery-Bank 3 60: Output Battery-Bank 1 61: Output Battery-Bank 2 62: Output Battery-Bank 3
Parameter 47 Value 10 is the correction-Factor for Battery Voltage Bank 3 50: Delay Battery Bank full (in min) Here you can Input a Delay-Time in minutes after Battery Bank x is full, to switch over to the next Battery-Bank. Yüklə 0,88 Mb. Dostları ilə paylaş:
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